RU2767501C1 - Power line partitioning device - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: device includes a remote control switching element installed in a break of the power transmission line at a given point for dividing the power transmission line into sections, a current sensor, a voltage sensor, a cabinet door position sensor, a local control unit, a device for receiving and transmitting data. An information processing unit is connected to the above units, which processes and compares data, generates control commands and identifies the reasons for disconnection of the switching element.

EFFECT: provision of sectionalization of power transmission line with improvement of controllability and reduction of time of interruptions in power supply to consumers in case of emergency outages of power transmission line.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and is intended for sectioning a power line.

The closest in technical essence to the proposed invention is a sectioning point up to 1 kV, combined with a point for metering electricity and monitoring the quality of electricity, controlling the amount and time of power outages, including a switching element for remote control (RF patent No. 2731874, IPC H02V 7/06 , published 08.09.2020 Bull. No. 25).

The disadvantage of the known method is the limited scope due to the impossibility of integrating the partitioning device into related operation with other devices installed in the electrical network by receiving control commands from devices installed in the electrical network and transmitting control commands to these devices.

The objective of the invention is to simplify the device, which will lead to its reduction in cost and expansion of the scope by providing the ability to receive control commands from devices installed in the electrical network and transmit control commands to these devices and thus ensure an increase in the degree of automation of the electrical network by providing the possibility integration of the partitioning device into related operation with other devices installed in the electrical network by receiving control commands from devices installed in the electrical network and transmitting control commands to these devices, increasing the observability of the electrical network and its controllability, reducing the time of interruptions in the power supply of consumers during emergency shutdowns and during scheduled maintenance of the power line.

The technical result of the invention consists in providing sectioning of the power line, ensuring an increase in the degree of automation of the electrical network by providing the possibility of integrating the sectioning device into related work with other devices installed in the electrical network, increasing the observability of the electrical network and its controllability due to the possibility of receiving control commands from devices installed in the electrical network and transmitting control commands to these devices and informing the dispatcher about the operation of the partitioning device, ensuring a reduction in the time of interruptions in the power supply to consumers during emergency power outages by ensuring that the network manager is informed about the disconnection of the partitioning device, indicating the reasons for the shutdown, which allows the dispatcher promptly make decisions on restoring power supply to consumers, ensuring a reduction in the time of interruptions in power supply to consumers during scheduled maintenance of the power line due to the possibility of disconnecting the sectioning device and the possibility, thus, to serve the section of the line behind the sectioning device without disconnecting consumers connected to the sectioning device.

The above technical result is achieved by the fact that the proposed device for separating the power line, including the switching element of the remote control, according to the invention, contains the switching element of the remote control, installed in the break of the power line at a given point and designed to divide the power line into sections, placed in the shield with a degree of protection that allows it to be used outdoors and having the ability to be mounted on a power line pole, a current sensor connected to the power circuit behind the remote control switching element and to an information processing and control unit, a voltage sensor connected to the power circuit before and after remote control switching element and connected to the information processing and control unit, designed to control the voltage at its connection points and transmit information about the voltage value to the information processing and control unit pressure, switchboard door position sensor, connected to the information processing and control unit, designed to control the position of the cabinet door and transmit information about its position to the information processing and control unit, the local control unit, connected to the switching element of the remote control and the information processing and control unit, designed for local control of a remote control switching element, an information processing and control unit connected to a current sensor, a voltage sensor, a cabinet door position sensor, a local control unit, a data receiving and transmitting device that processes and compares data from the specified sensors and blocks to generate control commands based on data received from sensors, or from a device for receiving and transmitting data, as well as to identify the causes of switching off the switching element of remote control and transmission, using a device for receiving and transmitting data other information about the facts and reasons for disconnecting the switching element of the remote control, commands to the network manager, devices installed in the network, a data receiving and transmitting device connected to the data processing and control unit and designed to receive control commands from the network manager, devices installed in the network and transmitting these commands to the information processing and control unit and transmitting information, commands received from the data processing unit.

The essence of the invention is illustrated by the drawing, which shows a block diagram of the power line sectioning device.

The device for sectioning the power line contains a switching element for remote control KE1, a switchboard with the possibility of mounting on a support 2, a current sensor DT3, a voltage sensor DN4, a switchboard door position sensor DPDSch5, an information processing and control unit BOIIU6, a device for receiving and transmitting data UPD7, a local control unit BMU8, section of the power line Section of the power line 9, section of the power line Section of the power line 10.

KE1 is installed in shield 2 and connected to sections of power lines 9 and 10. DT3 is connected to the power circuit after KE1 and connected to BOIIU6. DN4 is connected to the power circuit before and after KE1 and to BOIIU6. DPDSH5 is connected to BOIIU6. BOIIU6 is connected to DT3, DN4, DPDSch5, UPPD7, BMU8. UPPD7 is connected to BOIIU6.

The power line partitioning device operates as follows.

The device is installed in a break in the power line at a predetermined location. At the same time, KE1 is connected to sections of power lines 9 and 10. Current sensor DT3 monitors the current flowing through KE1 and transmits data on the current value to BOIIU6. DN4 monitors the voltage before and after KE1 and transmits data on the voltage value to BOIIU6. DPDSh5 controls the position of the switchboard door in which KE1 is installed.

In the event of a power failure at the power line section 9 and the power line section 10, DN4 transmits this information to BOIIU6, which in this case generates a KE1 shutdown command, sectioning the power line and generates a KE1 shutdown message, which transmits to the network manager and to devices installed in the network, for example , automatic transfer points (ATS points), sectioning points (SP), switches of outgoing lines of transformer substations (TS), provided that the sectioning device and the above devices have a communication channel between each other and are connected by the logic of work. When voltage appears from the side of the power line section 9 and there is no voltage from the side of the power line section 10, DN4 transmits this information to BOIIU6, which in this case generates a command to turn on the KE1 and generates a message about the inclusion of the KE1, which is transmitted to the network manager and to the devices installed in the network and associated with it. If the voltage appears from the side of the power line section 10, in the absence of it from the side of the power line section 9, DN4 transmits this information to the BOIIU6, which in this case does not generate a command to turn on the KE1 and generates a message about the appearance of voltage on the power line section 10, which it transmits to the network manager and devices installed on the network and associated with it. With the subsequent appearance of voltage on the PTL9 section, the BOIIU6 generates a message about this and sends it to the dispatcher and devices installed in the network and, depending on the inherent operation algorithm, generates and transmits commands to sequentially turn off the AVR point installed on the PTL 10 section and turn on the KE1 .

When a short circuit current appears in the section of the power line 10 beyond the installation point of the KE1, DT3 transmits information about this to the BOIIU6, which, depending on the design of the KE1 and the possibility of breaking the short circuit current, either generates a command to turn off the KE1 (if the KE1 allows you to open the short circuit current circuit), or generates a command to turn off the protective switching device installed at the beginning of the section of the power line 9. After turning off the specified device, the voltage will disappear on the section of the power line 9 and, accordingly, on the section of the power line 10, which will lead to the shutdown of the KE1 as described above. In this case, the line will be sectioned in order to disable the short circuit. After switching off KE1, BOIIU6 will generate a signal for automatic reclosing of the protective switching device installed at the beginning of the section of power line 9 and a command to disable the inclusion of KE1 to prevent voltage being applied to the damaged section of power line 10. Also, BOIIU6 will generate a message about turning off the KE1 due to a short circuit in the section of power line 10, which will transmit to the dispatcher and devices in the network associated with the partitioning device, for example, an ATS prohibition signal to the ATS point installed on the section of power line 10.

UPPD 7 in all cases transmits messages, commands via any communication channel and protocol adopted by the company serving the power line in which the partitioning device is installed.

Through UPPD7, commands can be transmitted to enable and disable KE1 from the dispatcher, from devices installed in the network and connected to the partitioning device.

Local shutdown of KE1 can be carried out using BMU8. At the same time, BMU8 is installed inside the shield 2. Therefore, for local shutdown of the KE1, it is necessary to open the door of the shield 2, information about which will be transmitted from the DPDSch5 to the BOIIU6. After turning off the KE1 with the help of the BMU8, the BOIIU6 will generate a command to disable the remote and automatic switching on of the KE1 and a message about the local shutdown of the KE1 and blocking its activation by all means except local control and send it using the UPPD7 to the dispatcher and devices in the network associated with the partitioning device.

Other algorithms for the operation of the power line sectioning device can be implemented.

Having received information about the disconnection of KE1, the network manager promptly decides on further actions, which allows to reduce the time of interruption in the power supply of consumers connected to the section of the power line 10 for the sectioning device. Also, the device helps to prevent unreasonable interruptions in the power supply of consumers connected to the PTL9 section to KE1 and increases electrical safety by ensuring that short-circuit currents are turned off in the event of short circuits in the PTL10 section. The possibility of manual shutdown of KE1 allows to reduce interruptions in the power supply of consumers connected to the PTL 9 section during scheduled repairs and maintenance of the PTL 10 section behind KE1.

The proposed device allows sectioning a power line in different situations, informs the network manager about the disconnection of the partitioning device with an indication of the reasons for disconnection, increases the degree of automation of the electrical network by providing the possibility of integrating the partitioning device into related work with other devices installed in the electrical network. Also, the device increases the observability of the electrical network and its controllability, reduces the time of interruptions in the power supply of consumers during emergency shutdowns and during scheduled maintenance of the power transmission line.

Claims (1)

Power line partitioning device, which includes a remote control switching element, characterized in that it contains a remote control switching element installed in the break of the power line at a given point and designed to divide the power line into sections, located in a shield with a degree of protection that allows its use outdoors, and having the possibility of mounting on a power line support, a current sensor connected to the power circuit behind the remote control switching element and to the information processing and control unit, a voltage sensor connected to the power circuit before and after the remote control switching element and connected to information processing and control unit designed to control the voltage at its connection points and transmit information about the voltage value to the information processing and control unit, the switchboard door position sensor connected to the processing unit and information and control, designed to control the position of the cabinet door and transmit information about its position to the information processing and control unit, the local control unit connected to the remote control switching element and the information processing and control unit, designed for local control of the remote control switching element, an information processing and control unit connected to a current sensor, a voltage sensor, a cabinet door position sensor, a local control unit, a device for receiving and transmitting data, which processes and compares data coming from these sensors and blocks to generate control commands based on the data received from sensors, or from the device for receiving and transmitting data, as well as to identify the causes of disconnection of the switching element of remote control and transmission, using the device for receiving and transmitting data, information about the facts and reasons for disconnecting the switching element and remote control, commands to the network manager, devices installed on the network, a data receiving and transmitting device connected to the data processing and control unit and designed to receive control commands from the network manager, devices installed on the network and transmit these commands to the information processing unit and control and transmission of information, commands received from the data processing unit.

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